1 /***************************************************************************
2 * Copyright (C) 2010 Serge Vakulenko *
5 * This program is free software; you can redistribute it and/or modify *
6 * it under the terms of the GNU General Public License as published by *
7 * the Free Software Foundation; either version 2 of the License, or *
8 * (at your option) any later version. *
10 * This program is distributed in the hope that it will be useful, *
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
13 * GNU General Public License for more details. *
15 * You should have received a copy of the GNU General Public License *
16 * along with this program. If not, see <http://www.gnu.org/licenses/>. *
17 ***************************************************************************/
28 /* project specific includes */
29 #include <jtag/interface.h>
30 #include <jtag/commands.h>
31 #include <helper/time_support.h>
32 #include "libusb1_common.h"
42 * Sync bit bang mode is implemented as described in FTDI Application
43 * Note AN232R-01: "Bit Bang Modes for the FT232R and FT245R".
53 #define SIO_RESET 0 /* Reset the port */
54 #define SIO_MODEM_CTRL 1 /* Set the modem control register */
55 #define SIO_SET_FLOW_CTRL 2 /* Set flow control register */
56 #define SIO_SET_BAUD_RATE 3 /* Set baud rate */
57 #define SIO_SET_DATA 4 /* Set the data characteristics of the port */
58 #define SIO_POLL_MODEM_STATUS 5
59 #define SIO_SET_EVENT_CHAR 6
60 #define SIO_SET_ERROR_CHAR 7
61 #define SIO_SET_LATENCY_TIMER 9
62 #define SIO_GET_LATENCY_TIMER 10
63 #define SIO_SET_BITMODE 11
64 #define SIO_READ_PINS 12
65 #define SIO_READ_EEPROM 0x90
66 #define SIO_WRITE_EEPROM 0x91
67 #define SIO_ERASE_EEPROM 0x92
69 #define FT232R_BUF_SIZE_EXTRA 4096
71 static char *ft232r_serial_desc
;
72 static uint16_t ft232r_vid
= 0x0403; /* FTDI */
73 static uint16_t ft232r_pid
= 0x6001; /* FT232R */
74 static jtag_libusb_device_handle
*adapter
;
76 static uint8_t *ft232r_output
;
77 static size_t ft232r_output_len
;
80 * FT232R GPIO bit number to RS232 name
82 #define FT232R_BIT_COUNT 8
83 static char *ft232r_bit_name_array
[FT232R_BIT_COUNT
] = {
84 "TXD", /* 0: pin 1 TCK output */
85 "RXD", /* 1: pin 5 TDI output */
86 "RTS", /* 2: pin 3 TDO input */
87 "CTS", /* 3: pin 11 TMS output */
88 "DTR", /* 4: pin 2 /TRST output */
89 "DSR", /* 5: pin 9 unused */
90 "DCD", /* 6: pin 10 /SYSRST output */
91 "RI" /* 7: pin 6 unused */
94 static int tck_gpio
; /* initialized to 0 by default */
95 static int tdi_gpio
= 1;
96 static int tdo_gpio
= 2;
97 static int tms_gpio
= 3;
98 static int ntrst_gpio
= 4;
99 static int nsysrst_gpio
= 6;
100 static size_t ft232r_buf_size
= FT232R_BUF_SIZE_EXTRA
;
101 /** 0xFFFF disables restore by default, after exit serial port will not work.
102 * 0x15 sets TXD RTS DTR as outputs, after exit serial port will continue to work.
104 static uint16_t ft232r_restore_bitmode
= 0xFFFF;
107 * Perform sync bitbang output/input transaction.
108 * Before call, an array ft232r_output[] should be filled with data to send.
109 * Counter ft232r_output_len contains the number of bytes to send.
110 * On return, received data is put back to array ft232r_output[].
112 static int ft232r_send_recv(void)
114 /* FIFO TX buffer has 128 bytes.
115 * FIFO RX buffer has 256 bytes.
116 * First two bytes of received packet contain contain modem
117 * and line status and are ignored.
118 * Unfortunately, transfer sizes bigger than 64 bytes
119 * frequently cause hang ups. */
120 assert(ft232r_output_len
> 0);
122 size_t total_written
= 0;
123 size_t total_read
= 0;
124 int rxfifo_free
= 128;
126 while (total_read
< ft232r_output_len
) {
128 int bytes_to_write
= ft232r_output_len
- total_written
;
129 if (bytes_to_write
> 64)
131 if (bytes_to_write
> rxfifo_free
)
132 bytes_to_write
= rxfifo_free
;
134 if (bytes_to_write
) {
137 if (jtag_libusb_bulk_write(adapter
, IN_EP
,
138 (char *) ft232r_output
+ total_written
,
139 bytes_to_write
, 1000, &n
) != ERROR_OK
) {
140 LOG_ERROR("usb bulk write failed");
141 return ERROR_JTAG_DEVICE_ERROR
;
152 if (jtag_libusb_bulk_read(adapter
, OUT_EP
, (char *) reply
,
153 sizeof(reply
), 1000, &n
) != ERROR_OK
) {
154 LOG_ERROR("usb bulk read failed");
155 return ERROR_JTAG_DEVICE_ERROR
;
158 /* Copy data, ignoring first 2 bytes. */
159 memcpy(ft232r_output
+ total_read
, reply
+ 2, n
- 2);
160 int bytes_read
= n
- 2;
161 total_read
+= bytes_read
;
162 rxfifo_free
+= bytes_read
;
163 if (total_read
> total_written
) {
164 LOG_ERROR("read more bytes than wrote");
165 return ERROR_JTAG_DEVICE_ERROR
;
169 ft232r_output_len
= 0;
173 void ft232r_increase_buf_size(size_t new_buf_size
)
175 uint8_t *new_buf_ptr
;
176 if (new_buf_size
>= ft232r_buf_size
) {
177 new_buf_size
+= FT232R_BUF_SIZE_EXTRA
;
178 new_buf_ptr
= realloc(ft232r_output
, new_buf_size
);
179 if (new_buf_ptr
!= NULL
) {
180 ft232r_output
= new_buf_ptr
;
181 ft232r_buf_size
= new_buf_size
;
187 * Add one TCK/TMS/TDI sample to send buffer.
189 static void ft232r_write(int tck
, int tms
, int tdi
)
191 unsigned out_value
= (1<<ntrst_gpio
) | (1<<nsysrst_gpio
);
193 out_value
|= (1<<tck_gpio
);
195 out_value
|= (1<<tms_gpio
);
197 out_value
|= (1<<tdi_gpio
);
199 ft232r_increase_buf_size(ft232r_output_len
);
201 if (ft232r_output_len
>= ft232r_buf_size
) {
202 /* FIXME: should we just execute queue here? */
203 LOG_ERROR("ft232r_write: buffer overflow");
206 ft232r_output
[ft232r_output_len
++] = out_value
;
210 * Control /TRST and /SYSRST pins.
211 * Perform immediate bitbang transaction.
213 static void ft232r_reset(int trst
, int srst
)
215 unsigned out_value
= (1<<ntrst_gpio
) | (1<<nsysrst_gpio
);
216 LOG_DEBUG("ft232r_reset(%d,%d)", trst
, srst
);
219 out_value
&= ~(1<<ntrst_gpio
); /* switch /TRST low */
221 out_value
|= (1<<ntrst_gpio
); /* switch /TRST high */
224 out_value
&= ~(1<<nsysrst_gpio
); /* switch /SYSRST low */
226 out_value
|= (1<<nsysrst_gpio
); /* switch /SYSRST high */
228 ft232r_increase_buf_size(ft232r_output_len
);
230 if (ft232r_output_len
>= ft232r_buf_size
) {
231 /* FIXME: should we just execute queue here? */
232 LOG_ERROR("ft232r_write: buffer overflow");
236 ft232r_output
[ft232r_output_len
++] = out_value
;
240 static int ft232r_speed(int divisor
)
242 int baud
= (divisor
== 0) ? 3000000 :
243 (divisor
== 1) ? 2000000 :
245 LOG_DEBUG("ft232r_speed(%d) rate %d bits/sec", divisor
, baud
);
247 if (jtag_libusb_control_transfer(adapter
,
248 LIBUSB_REQUEST_TYPE_VENDOR
| LIBUSB_RECIPIENT_DEVICE
| LIBUSB_ENDPOINT_OUT
,
249 SIO_SET_BAUD_RATE
, divisor
, 0, 0, 0, 1000) != 0) {
250 LOG_ERROR("cannot set baud rate");
251 return ERROR_JTAG_DEVICE_ERROR
;
256 static int ft232r_init(void)
258 uint16_t avids
[] = {ft232r_vid
, 0};
259 uint16_t apids
[] = {ft232r_pid
, 0};
260 if (jtag_libusb_open(avids
, apids
, ft232r_serial_desc
, &adapter
)) {
261 LOG_ERROR("ft232r not found: vid=%04x, pid=%04x, serial=%s\n",
262 ft232r_vid
, ft232r_pid
, (ft232r_serial_desc
== NULL
) ? "[any]" : ft232r_serial_desc
);
263 return ERROR_JTAG_INIT_FAILED
;
266 if (ft232r_restore_bitmode
== 0xFFFF) /* serial port will not be restored after jtag: */
267 libusb_detach_kernel_driver(adapter
, 0);
268 else /* serial port will be restored after jtag: */
269 libusb_set_auto_detach_kernel_driver(adapter
, 1); /* 1: DONT_DETACH_SIO_MODULE */
271 if (jtag_libusb_claim_interface(adapter
, 0)) {
272 LOG_ERROR("unable to claim interface");
273 return ERROR_JTAG_INIT_FAILED
;
276 /* Reset the device. */
277 if (jtag_libusb_control_transfer(adapter
,
278 LIBUSB_REQUEST_TYPE_VENDOR
| LIBUSB_RECIPIENT_DEVICE
| LIBUSB_ENDPOINT_OUT
,
279 SIO_RESET
, 0, 0, 0, 0, 1000) != 0) {
280 LOG_ERROR("unable to reset device");
281 return ERROR_JTAG_INIT_FAILED
;
284 /* Sync bit bang mode. */
285 if (jtag_libusb_control_transfer(adapter
,
286 LIBUSB_REQUEST_TYPE_VENDOR
| LIBUSB_RECIPIENT_DEVICE
| LIBUSB_ENDPOINT_OUT
,
287 SIO_SET_BITMODE
, (1<<tck_gpio
) | (1<<tdi_gpio
) | (1<<tms_gpio
) | (1<<ntrst_gpio
) | (1<<nsysrst_gpio
) | 0x400,
288 0, 0, 0, 1000) != 0) {
289 LOG_ERROR("cannot set sync bitbang mode");
290 return ERROR_JTAG_INIT_FAILED
;
293 /* Exactly 500 nsec between updates. */
294 unsigned divisor
= 1;
295 unsigned char latency_timer
= 1;
297 /* Frequency divisor is 14-bit non-zero value. */
298 if (jtag_libusb_control_transfer(adapter
,
299 LIBUSB_REQUEST_TYPE_VENDOR
| LIBUSB_RECIPIENT_DEVICE
| LIBUSB_ENDPOINT_OUT
,
300 SIO_SET_BAUD_RATE
, divisor
,
301 0, 0, 0, 1000) != 0) {
302 LOG_ERROR("cannot set baud rate");
303 return ERROR_JTAG_INIT_FAILED
;
305 if (jtag_libusb_control_transfer(adapter
,
306 LIBUSB_REQUEST_TYPE_VENDOR
| LIBUSB_RECIPIENT_DEVICE
| LIBUSB_ENDPOINT_OUT
,
307 SIO_SET_LATENCY_TIMER
, latency_timer
, 0, 0, 0, 1000) != 0) {
308 LOG_ERROR("unable to set latency timer");
309 return ERROR_JTAG_INIT_FAILED
;
312 ft232r_output
= malloc(ft232r_buf_size
);
313 if (ft232r_output
== NULL
) {
314 LOG_ERROR("Unable to allocate memory for the buffer");
315 return ERROR_JTAG_INIT_FAILED
;
321 static int ft232r_quit(void)
323 /* to restore serial port: set TXD RTS DTR as outputs, others as inputs, disable sync bit bang mode. */
324 if (ft232r_restore_bitmode
!= 0xFFFF) {
325 if (jtag_libusb_control_transfer(adapter
,
326 LIBUSB_REQUEST_TYPE_VENDOR
| LIBUSB_RECIPIENT_DEVICE
| LIBUSB_ENDPOINT_OUT
,
327 SIO_SET_BITMODE
, ft232r_restore_bitmode
,
328 0, 0, 0, 1000) != 0) {
329 LOG_ERROR("cannot set bitmode to restore serial port");
333 if (jtag_libusb_release_interface(adapter
, 0) != 0)
334 LOG_ERROR("usb release interface failed");
336 jtag_libusb_close(adapter
);
338 free(ft232r_output
); /* free used memory */
339 ft232r_output
= NULL
; /* reset pointer to memory */
340 ft232r_buf_size
= FT232R_BUF_SIZE_EXTRA
; /* reset next initial buffer size */
345 static int ft232r_speed_div(int divisor
, int *khz
)
347 /* Maximum 3 Mbaud for bit bang mode. */
350 else if (divisor
== 1)
353 *khz
= 3000 / divisor
;
357 static int ft232r_khz(int khz
, int *divisor
)
360 LOG_DEBUG("RCLK not supported");
364 /* Calculate frequency divisor. */
366 *divisor
= 0; /* Special case: 3 MHz */
368 *divisor
= 1; /* Special case: 2 MHz */
370 *divisor
= (2*3000 / khz
+ 1) / 2;
371 if (*divisor
> 0x3FFF)
377 static char *ft232r_bit_number_to_name(int bit
)
379 if (bit
>= 0 && bit
< FT232R_BIT_COUNT
)
380 return ft232r_bit_name_array
[bit
];
384 static int ft232r_bit_name_to_number(const char *name
)
387 if (name
[0] >= '0' && name
[0] <= '9' && name
[1] == '\0') {
389 if (i
>= 0 && i
< FT232R_BIT_COUNT
)
392 for (i
= 0; i
< FT232R_BIT_COUNT
; i
++)
393 if (strcasecmp(name
, ft232r_bit_name_array
[i
]) == 0)
398 COMMAND_HANDLER(ft232r_handle_serial_desc_command
)
401 ft232r_serial_desc
= strdup(CMD_ARGV
[0]);
403 LOG_ERROR("require exactly one argument to "
404 "ft232r_serial_desc <serial>");
408 COMMAND_HANDLER(ft232r_handle_vid_pid_command
)
411 LOG_WARNING("ignoring extra IDs in ft232r_vid_pid "
412 "(maximum is 1 pair)");
416 COMMAND_PARSE_NUMBER(u16
, CMD_ARGV
[0], ft232r_vid
);
417 COMMAND_PARSE_NUMBER(u16
, CMD_ARGV
[1], ft232r_pid
);
419 LOG_WARNING("incomplete ft232r_vid_pid configuration");
424 COMMAND_HANDLER(ft232r_handle_jtag_nums_command
)
427 tck_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
428 tms_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[1]);
429 tdi_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[2]);
430 tdo_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[3]);
431 } else if (CMD_ARGC
!= 0)
432 return ERROR_COMMAND_SYNTAX_ERROR
;
435 return ERROR_COMMAND_SYNTAX_ERROR
;
437 return ERROR_COMMAND_SYNTAX_ERROR
;
439 return ERROR_COMMAND_SYNTAX_ERROR
;
441 return ERROR_COMMAND_SYNTAX_ERROR
;
444 "FT232R nums: TCK = %d %s, TMS = %d %s, TDI = %d %s, TDO = %d %s",
445 tck_gpio
, ft232r_bit_number_to_name(tck_gpio
),
446 tms_gpio
, ft232r_bit_number_to_name(tms_gpio
),
447 tdi_gpio
, ft232r_bit_number_to_name(tdi_gpio
),
448 tdo_gpio
, ft232r_bit_number_to_name(tdo_gpio
));
453 COMMAND_HANDLER(ft232r_handle_tck_num_command
)
456 tck_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
457 else if (CMD_ARGC
!= 0)
458 return ERROR_COMMAND_SYNTAX_ERROR
;
461 return ERROR_COMMAND_SYNTAX_ERROR
;
464 "FT232R num: TCK = %d %s", tck_gpio
, ft232r_bit_number_to_name(tck_gpio
));
469 COMMAND_HANDLER(ft232r_handle_tms_num_command
)
472 tms_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
473 else if (CMD_ARGC
!= 0)
474 return ERROR_COMMAND_SYNTAX_ERROR
;
477 return ERROR_COMMAND_SYNTAX_ERROR
;
480 "FT232R num: TMS = %d %s", tms_gpio
, ft232r_bit_number_to_name(tms_gpio
));
485 COMMAND_HANDLER(ft232r_handle_tdo_num_command
)
488 tdo_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
489 else if (CMD_ARGC
!= 0)
490 return ERROR_COMMAND_SYNTAX_ERROR
;
493 return ERROR_COMMAND_SYNTAX_ERROR
;
496 "FT232R num: TDO = %d %s", tdo_gpio
, ft232r_bit_number_to_name(tdo_gpio
));
501 COMMAND_HANDLER(ft232r_handle_tdi_num_command
)
504 tdi_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
505 else if (CMD_ARGC
!= 0)
506 return ERROR_COMMAND_SYNTAX_ERROR
;
509 return ERROR_COMMAND_SYNTAX_ERROR
;
512 "FT232R num: TDI = %d %s", tdi_gpio
, ft232r_bit_number_to_name(tdi_gpio
));
517 COMMAND_HANDLER(ft232r_handle_trst_num_command
)
520 ntrst_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
521 else if (CMD_ARGC
!= 0)
522 return ERROR_COMMAND_SYNTAX_ERROR
;
525 return ERROR_COMMAND_SYNTAX_ERROR
;
528 "FT232R num: TRST = %d %s", ntrst_gpio
, ft232r_bit_number_to_name(ntrst_gpio
));
533 COMMAND_HANDLER(ft232r_handle_srst_num_command
)
536 nsysrst_gpio
= ft232r_bit_name_to_number(CMD_ARGV
[0]);
537 else if (CMD_ARGC
!= 0)
538 return ERROR_COMMAND_SYNTAX_ERROR
;
540 if (nsysrst_gpio
< 0)
541 return ERROR_COMMAND_SYNTAX_ERROR
;
544 "FT232R num: SRST = %d %s", nsysrst_gpio
, ft232r_bit_number_to_name(nsysrst_gpio
));
549 COMMAND_HANDLER(ft232r_handle_restore_serial_command
)
552 COMMAND_PARSE_NUMBER(u16
, CMD_ARGV
[0], ft232r_restore_bitmode
);
553 else if (CMD_ARGC
!= 0)
554 return ERROR_COMMAND_SYNTAX_ERROR
;
557 "FT232R restore serial: 0x%04X (%s)",
558 ft232r_restore_bitmode
, ft232r_restore_bitmode
== 0xFFFF ? "disabled" : "enabled");
563 static const struct command_registration ft232r_command_handlers
[] = {
565 .name
= "ft232r_serial_desc",
566 .handler
= ft232r_handle_serial_desc_command
,
567 .mode
= COMMAND_CONFIG
,
568 .help
= "USB serial descriptor of the adapter",
569 .usage
= "serial string",
572 .name
= "ft232r_vid_pid",
573 .handler
= ft232r_handle_vid_pid_command
,
574 .mode
= COMMAND_CONFIG
,
575 .help
= "USB VID and PID of the adapter",
579 .name
= "ft232r_jtag_nums",
580 .handler
= ft232r_handle_jtag_nums_command
,
581 .mode
= COMMAND_CONFIG
,
582 .help
= "gpio numbers for tck, tms, tdi, tdo. (in that order)",
583 .usage
= "<0-7|TXD-RI> <0-7|TXD-RI> <0-7|TXD-RI> <0-7|TXD-RI>",
586 .name
= "ft232r_tck_num",
587 .handler
= ft232r_handle_tck_num_command
,
588 .mode
= COMMAND_CONFIG
,
589 .help
= "gpio number for tck.",
590 .usage
= "<0-7|TXD|RXD|RTS|CTS|DTR|DSR|DCD|RI>",
593 .name
= "ft232r_tms_num",
594 .handler
= ft232r_handle_tms_num_command
,
595 .mode
= COMMAND_CONFIG
,
596 .help
= "gpio number for tms.",
597 .usage
= "<0-7|TXD|RXD|RTS|CTS|DTR|DSR|DCD|RI>",
600 .name
= "ft232r_tdo_num",
601 .handler
= ft232r_handle_tdo_num_command
,
602 .mode
= COMMAND_CONFIG
,
603 .help
= "gpio number for tdo.",
604 .usage
= "<0-7|TXD|RXD|RTS|CTS|DTR|DSR|DCD|RI>",
607 .name
= "ft232r_tdi_num",
608 .handler
= ft232r_handle_tdi_num_command
,
609 .mode
= COMMAND_CONFIG
,
610 .help
= "gpio number for tdi.",
611 .usage
= "<0-7|TXD|RXD|RTS|CTS|DTR|DSR|DCD|RI>",
614 .name
= "ft232r_srst_num",
615 .handler
= ft232r_handle_srst_num_command
,
616 .mode
= COMMAND_CONFIG
,
617 .help
= "gpio number for srst.",
618 .usage
= "<0-7|TXD|RXD|RTS|CTS|DTR|DSR|DCD|RI>",
621 .name
= "ft232r_trst_num",
622 .handler
= ft232r_handle_trst_num_command
,
623 .mode
= COMMAND_CONFIG
,
624 .help
= "gpio number for trst.",
625 .usage
= "<0-7|TXD|RXD|RTS|CTS|DTR|DSR|DCD|RI>",
628 .name
= "ft232r_restore_serial",
629 .handler
= ft232r_handle_restore_serial_command
,
630 .mode
= COMMAND_CONFIG
,
631 .help
= "bitmode control word that restores serial port.",
632 .usage
= "bitmode_control_word",
634 COMMAND_REGISTRATION_DONE
638 * Synchronous bitbang protocol implementation.
641 static void syncbb_end_state(tap_state_t state
)
643 if (tap_is_state_stable(state
))
644 tap_set_end_state(state
);
646 LOG_ERROR("BUG: %i is not a valid end state", state
);
651 static void syncbb_state_move(int skip
)
654 uint8_t tms_scan
= tap_get_tms_path(tap_get_state(), tap_get_end_state());
655 int tms_count
= tap_get_tms_path_len(tap_get_state(), tap_get_end_state());
657 for (i
= skip
; i
< tms_count
; i
++) {
658 tms
= (tms_scan
>> i
) & 1;
659 ft232r_write(0, tms
, 0);
660 ft232r_write(1, tms
, 0);
662 ft232r_write(0, tms
, 0);
664 tap_set_state(tap_get_end_state());
668 * Clock a bunch of TMS (or SWDIO) transitions, to change the JTAG
669 * (or SWD) state machine.
671 static int syncbb_execute_tms(struct jtag_command
*cmd
)
673 unsigned num_bits
= cmd
->cmd
.tms
->num_bits
;
674 const uint8_t *bits
= cmd
->cmd
.tms
->bits
;
676 LOG_DEBUG_IO("TMS: %d bits", num_bits
);
679 for (unsigned i
= 0; i
< num_bits
; i
++) {
680 tms
= ((bits
[i
/8] >> (i
% 8)) & 1);
681 ft232r_write(0, tms
, 0);
682 ft232r_write(1, tms
, 0);
684 ft232r_write(0, tms
, 0);
689 static void syncbb_path_move(struct pathmove_command
*cmd
)
691 int num_states
= cmd
->num_states
;
697 if (tap_state_transition(tap_get_state(), false) == cmd
->path
[state_count
]) {
699 } else if (tap_state_transition(tap_get_state(), true) == cmd
->path
[state_count
]) {
702 LOG_ERROR("BUG: %s -> %s isn't a valid TAP transition",
703 tap_state_name(tap_get_state()),
704 tap_state_name(cmd
->path
[state_count
]));
708 ft232r_write(0, tms
, 0);
709 ft232r_write(1, tms
, 0);
711 tap_set_state(cmd
->path
[state_count
]);
716 ft232r_write(0, tms
, 0);
718 tap_set_end_state(tap_get_state());
721 static void syncbb_runtest(int num_cycles
)
725 tap_state_t saved_end_state
= tap_get_end_state();
727 /* only do a state_move when we're not already in IDLE */
728 if (tap_get_state() != TAP_IDLE
) {
729 syncbb_end_state(TAP_IDLE
);
730 syncbb_state_move(0);
733 /* execute num_cycles */
734 for (i
= 0; i
< num_cycles
; i
++) {
735 ft232r_write(0, 0, 0);
736 ft232r_write(1, 0, 0);
738 ft232r_write(0, 0, 0);
740 /* finish in end_state */
741 syncbb_end_state(saved_end_state
);
742 if (tap_get_state() != tap_get_end_state())
743 syncbb_state_move(0);
747 * Function syncbb_stableclocks
748 * issues a number of clock cycles while staying in a stable state.
749 * Because the TMS value required to stay in the RESET state is a 1, whereas
750 * the TMS value required to stay in any of the other stable states is a 0,
751 * this function checks the current stable state to decide on the value of TMS
754 static void syncbb_stableclocks(int num_cycles
)
756 int tms
= (tap_get_state() == TAP_RESET
? 1 : 0);
759 /* send num_cycles clocks onto the cable */
760 for (i
= 0; i
< num_cycles
; i
++) {
761 ft232r_write(1, tms
, 0);
762 ft232r_write(0, tms
, 0);
766 static void syncbb_scan(bool ir_scan
, enum scan_type type
, uint8_t *buffer
, int scan_size
)
768 tap_state_t saved_end_state
= tap_get_end_state();
769 int bit_cnt
, bit0_index
;
771 if (!((!ir_scan
&& (tap_get_state() == TAP_DRSHIFT
)) || (ir_scan
&& (tap_get_state() == TAP_IRSHIFT
)))) {
773 syncbb_end_state(TAP_IRSHIFT
);
775 syncbb_end_state(TAP_DRSHIFT
);
777 syncbb_state_move(0);
778 syncbb_end_state(saved_end_state
);
781 bit0_index
= ft232r_output_len
;
782 for (bit_cnt
= 0; bit_cnt
< scan_size
; bit_cnt
++) {
783 int tms
= (bit_cnt
== scan_size
-1) ? 1 : 0;
785 int bytec
= bit_cnt
/8;
786 int bcval
= 1 << (bit_cnt
% 8);
788 /* if we're just reading the scan, but don't care about the output
789 * default to outputting 'low', this also makes valgrind traces more readable,
790 * as it removes the dependency on an uninitialised value
793 if ((type
!= SCAN_IN
) && (buffer
[bytec
] & bcval
))
796 ft232r_write(0, tms
, tdi
);
797 ft232r_write(1, tms
, tdi
);
800 if (tap_get_state() != tap_get_end_state()) {
801 /* we *KNOW* the above loop transitioned out of
802 * the shift state, so we skip the first state
803 * and move directly to the end state.
805 syncbb_state_move(1);
809 if (type
!= SCAN_OUT
)
810 for (bit_cnt
= 0; bit_cnt
< scan_size
; bit_cnt
++) {
811 int bytec
= bit_cnt
/8;
812 int bcval
= 1 << (bit_cnt
% 8);
813 int val
= ft232r_output
[bit0_index
+ bit_cnt
*2 + 1];
815 if (val
& (1<<tdo_gpio
))
816 buffer
[bytec
] |= bcval
;
818 buffer
[bytec
] &= ~bcval
;
822 static int syncbb_execute_queue(void)
824 struct jtag_command
*cmd
= jtag_command_queue
; /* currently processed command */
830 /* return ERROR_OK, unless a jtag_read_buffer returns a failed check
831 * that wasn't handled by a caller-provided error handler
835 /* ft232r_blink(1);*/
840 LOG_DEBUG_IO("reset trst: %i srst %i", cmd
->cmd
.reset
->trst
, cmd
->cmd
.reset
->srst
);
842 if ((cmd
->cmd
.reset
->trst
== 1) ||
843 (cmd
->cmd
.reset
->srst
&&
844 (jtag_get_reset_config() & RESET_SRST_PULLS_TRST
))) {
845 tap_set_state(TAP_RESET
);
847 ft232r_reset(cmd
->cmd
.reset
->trst
, cmd
->cmd
.reset
->srst
);
851 LOG_DEBUG_IO("runtest %i cycles, end in %s", cmd
->cmd
.runtest
->num_cycles
,
852 tap_state_name(cmd
->cmd
.runtest
->end_state
));
854 syncbb_end_state(cmd
->cmd
.runtest
->end_state
);
855 syncbb_runtest(cmd
->cmd
.runtest
->num_cycles
);
858 case JTAG_STABLECLOCKS
:
859 /* this is only allowed while in a stable state. A check for a stable
860 * state was done in jtag_add_clocks()
862 syncbb_stableclocks(cmd
->cmd
.stableclocks
->num_cycles
);
865 case JTAG_TLR_RESET
: /* renamed from JTAG_STATEMOVE */
866 LOG_DEBUG_IO("statemove end in %s", tap_state_name(cmd
->cmd
.statemove
->end_state
));
868 syncbb_end_state(cmd
->cmd
.statemove
->end_state
);
869 syncbb_state_move(0);
873 LOG_DEBUG_IO("pathmove: %i states, end in %s", cmd
->cmd
.pathmove
->num_states
,
874 tap_state_name(cmd
->cmd
.pathmove
->path
[cmd
->cmd
.pathmove
->num_states
- 1]));
876 syncbb_path_move(cmd
->cmd
.pathmove
);
880 LOG_DEBUG_IO("%s scan end in %s", (cmd
->cmd
.scan
->ir_scan
) ? "IR" : "DR",
881 tap_state_name(cmd
->cmd
.scan
->end_state
));
883 syncbb_end_state(cmd
->cmd
.scan
->end_state
);
884 scan_size
= jtag_build_buffer(cmd
->cmd
.scan
, &buffer
);
885 type
= jtag_scan_type(cmd
->cmd
.scan
);
886 syncbb_scan(cmd
->cmd
.scan
->ir_scan
, type
, buffer
, scan_size
);
887 if (jtag_read_buffer(buffer
, cmd
->cmd
.scan
) != ERROR_OK
)
888 retval
= ERROR_JTAG_QUEUE_FAILED
;
894 LOG_DEBUG_IO("sleep %" PRIi32
, cmd
->cmd
.sleep
->us
);
896 jtag_sleep(cmd
->cmd
.sleep
->us
);
900 retval
= syncbb_execute_tms(cmd
);
903 LOG_ERROR("BUG: unknown JTAG command type encountered");
906 if (ft232r_output_len
> 0)
910 /* ft232r_blink(0);*/
915 static struct jtag_interface ft232r_interface
= {
916 .supported
= DEBUG_CAP_TMS_SEQ
,
917 .execute_queue
= syncbb_execute_queue
,
920 struct adapter_driver ft232r_adapter_driver
= {
922 .transports
= jtag_only
,
923 .commands
= ft232r_command_handlers
,
927 .speed
= ft232r_speed
,
929 .speed_div
= ft232r_speed_div
,
931 .jtag_ops
= &ft232r_interface
,
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